Merida Kickstand Foot
A broken kickstand foot shouldn't sideline otherwise good Merida equipment, and with a decent sample to work from it usually doesn't have to. We've made this style of part before and can usually print yours without drama.

A broken kickstand foot shouldn't sideline otherwise good Merida equipment, and with a decent sample to work from it usually doesn't have to. We've made this style of part before and can usually print yours without drama.
Why these break
Kickstand feet wear through and slip. UV exposure breaks down the polymer chains in the original material. By the time the surface looks chalky or faded, the strength underneath is already gone.
How we reproduce them
The process is simple: drop the part in or send clear photos with a ruler in frame, we confirm fit details, and print replacements — often with a little extra material where the original always cracked.
We print these in TPU. TPU is flexible and grippy, so it absorbs the impacts and vibration that crack rigid plastics, and it is kind to the surfaces it touches.
Many plastic parts can be recreated, repaired, redesigned, or printed, depending on size, load, heat, material, and available samples. Bring in the damaged part or upload photos for assessment and we'll give you a straight answer before any work starts.
Part details
| Manufacturer | Merida |
|---|---|
| Vehicle / equipment type | Bicycle |
| Common failure mode | Kickstand feet wear through and slip |
| Typical use case | Replacement part for bicycle. |
Printing & reverse engineering
| Can print directly | Yes |
|---|---|
| Can scan from broken sample | Yes |
| Can redesign / improve | Yes |
| Recommended material | TPU |
| Alternative materials | Nylon |
| Print technology | FDM |
| Difficulty | Easy |
| Estimated print time | 20–40 minutes |
| Estimated cost range | $5 – $12 |
| Expected lifespan | 3–5 years in normal use |
| Outdoor suitable | Yes |
| Heat resistant | No |
| Load bearing | Depends |
| Requires post-processing | No |
Ask us about this part
Many plastic parts can be recreated, repaired, redesigned, or printed, depending on size, load, heat, material, and available samples.
